p53 gene structure and chromosome 17p alleles were studied in the three human prostate cancer cell lines, LNCaP, DU-145, and PC-3. Our laboratory has two separate culture lines of the LNCaP human prostate cancer cells. One strain, LNCaP-GW, had a mutation in one of two alleles at position 273 (arg > his). This mutation could not be detected in a second strain of LNCaP, LNCaP-ATCC. Immunohistochemical staining for P53 protein in the cell lines indicated that protein overexpression in LNCaP was heterogeneous, even in clonal isolates derived from LNCaP-GW that contained the codon 273 mutation in every cell. We also performed in vitro and in vivo growth analysis to compare the LNCaP-GW and LNCaP-ATCC cells. LNCaP-GW grew more rapidly than LNCaP-ATCC in vitro. However, LNCaP-ATCC formed tumors efficiently when inoculated into nude mice, whereas LNCaP-GW formed tumors much less efficiently. Consideration must be given to the notion that some of these p53 mutations arose during in vitro passage. We also confirmed published findings with two other human prostate cancer cell lines. In DU-145, two mutations were found in the p53 gene. A mutation at codon 274 (pro > leu) and a second mutation at codon 223 (val > phe) were present. PC-3 cells were hemizygous for chromosome 17p. The single copy of the p53 gene had a base pair deletion at codon 138 that generated a frame shift and a new in-frame stop codon at position 169.
Frailty is a geriatric syndrome characterised by a vulnerability status associated with declining function of multiple physiological systems and loss of physiological reserves. Two main models of frailty have been advanced: the phenotypic model (primary frailty) or deficits accumulation model (secondary frailty), and different instruments have been proposed and validated to measure frailty. However measured, frailty correlates to medical outcomes in the elderly, and has been shown to have prognostic value for patients in different clinical settings, such as in patients with coronary artery disease, after cardiac surgery or transvalvular aortic valve replacement, in patients with chronic heart failure or after left ventricular assist device implantation. The prevalence, clinical and prognostic relevance of frailty in a cardiac rehabilitation setting has not yet been well characterised, despite the increasing frequency of elderly patients in cardiac rehabilitation, where frailty is likely to influence the onset, type and intensity of the exercise training programme and the design of tailored rehabilitative interventions for these patients. Therefore, we need to start looking for frailty in elderly patients entering cardiac rehabilitation programmes and become more familiar with some of the tools to recognise and evaluate the severity of this condition. Furthermore, we need to better understand whether exercise-based cardiac rehabilitation may change the course and the prognosis of frailty in cardiovascular patients.
Treatment of human prostate cancer cells, LNCaP, with cadmium stimulated cell growth. There was a 2.4-fold increase in the population of cells in the S + G(2)M phase by d 4 and a 2.7-fold increase in cell number by d 8. The metal decreased the concentration of AR protein and mRNA (80 and 60%, respectively) and increased the expression of prostate-specific antigen and the homeobox gene, NKX 3.1 (6-fold) that was blocked by an antiandrogen. In addition, cadmium activated the AR in mouse L cells containing an MMTV-luciferase reporter gene (4-fold increase) and in COS-1 cells transfected with wild-type AR and an MMTV-CAT reporter gene (7-fold increase). Cadmium also activated a chimeric receptor (GAL-AR) containing the hormone-binding domain of AR. The metal bound to AR with an equilibrium dissociation constant of 1.19 x 10(-10) M. Cadmium blocked the binding of androgen to the receptor but did not alter its affinity (dissociation constant = 2.8 x 10(-10) M), suggesting that the metal is an inhibitor of hormone binding. In castrated animals, a single, low, environmentally relevant dose of cadmium (20 microg/kg body weight) increased the wet weight of the prostate (1.97- to 3-fold) and the seminal vesicle complex (approximately 1.5-fold) and increased the expression of the androgen-regulated gene, probasin (27-fold). The in vivo effects were also blocked by an antiandrogen.
The LNCaP human prostate cancer cell line is dependent on androgen for in vitro growth. To discover genes that may be responsible for progression of prostate cancer from hormone dependence to hormone independence, we transfected LNCaP cells with expression vectors that contained either the v-rasH or c-rasH gene under the control of the cadmium (Cd2+)-inducible human metallothionein-IIA promoter. Numerous derivative cell lines were isolated which manifested inducible expression of rasH p21 protein when the cells were treated with Cd2+. None of the cell lines transfected with c-rasH were found to have an altered growth phenotype. Several derivative cell lines expressing inducible v-rasH manifested hormone-independent growth in culture when treated with 10(-7) M Cd2+ . Cd2+ induction of v-rasH p21 was also shown to increase anchorage-independent colony formation of the v-rasH-expressing cell lines tested. Expression of a dominant mutated oncogene can change the hormone-dependent growth phenotype of prostate cancer cells.
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